Protein–ligand docking using differential evolution with an adaptive mechanism
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摘要
The protein–ligand docking problem plays a crucial role in the drug discovery process and remains challenging in bioinformatics. A successful protein–ligand docking approach depends on two key factors: an efficient search strategy and an effective scoring function. In this study, we attempt to use an adaptive differential evolution (DE) algorithm as the search strategy. The search ability of the proposed DE algorithm is improved by incorporating a parameter adaptation scheme and a modified mutation strategy. In addition, the scoring function of the classical AutoDock Vina suite is employed as the fitness function of the proposed approach. Finally, the performance of the adaptive DE method in solving the protein–ligand docking problem is evaluated on 40 test docking instances. The experimental results and statistical analysis demonstrate the effectiveness of the proposed adaptive DE algorithm compared with five other classical evolutionary algorithms. The results of this study reveal that employing powerful evolutionary algorithms, such as adaptive DE, contributes to solving the protein–ligand docking problem.
论文关键词:Protein–ligand docking,Differential evolution,Parameter adaptation,Optimization,Molecular docking
论文评审过程:Received 17 September 2020, Revised 20 August 2021, Accepted 22 August 2021, Available online 25 August 2021, Version of Record 1 September 2021.
论文官网地址:https://doi.org/10.1016/j.knosys.2021.107433